JP5076430B2 - Acoustic device, output suppression method, and program - Google Patents

Description

  The present invention relates to an audio device, an output suppression method, and a program, and is suitable for application to, for example, a music playback device.

  Conventionally, in general, pin-shaped plugs are often used for headphones (or earphones) that can be attached to and detached from music playback devices, and when such plugs are used, the plug terminals are plugged in and out. Arranged parallel to the direction. In this case, the connector terminal corresponding to the plug terminal is also arranged in parallel to the plug insertion / removal direction.

  On the other hand, if the music playback device has a noise canceling function, a headphone (or earphone) that can be attached to and detached from the music playback device collects sound around the headphone as noise sound. Will be installed.

  Here, among the plug terminals arranged on the plug of the headphone with microphone, when the microphone input terminal and the speaker output terminal are arranged in parallel to the plug insertion / removal direction, the plug is connected to the corresponding connector. When plugging and unplugging, the speaker output terminal on the plug side and the microphone input terminal on the connector side come into contact with each other, so that a part of the output from the speaker is fed back to the microphone. (Howling) occurs.

As one of the solutions to this problem, a switch connected to the signal line in the cable is provided, and a rod-like switch lever for opening and closing the switch is provided in parallel with the plug insertion / removal direction. Proposed that the switch lever is released by the force generated by pushing the switch lever against the end face as the end of the switch lever contacts the end face of the jack and the plug is fully inserted into the jack. (For example, refer to Patent Document 1).
Japanese Utility Model Publication No. 5-31161

  However, the plug having such a configuration has a problem in that it requires an installation space including a space for the switch lever itself and a movable space for the switch lever, and thus the size of the music reproducing apparatus as a whole is increased.

  The present invention has been made in view of the above points, and intends to propose an acoustic device, an output suppression method, and a program that can prevent oscillation with a simple configuration.

In order to solve such a problem, the present invention is an acoustic device, wherein a connector corresponding to a multipolar plug in which all or a part of a plurality of plug terminals are arranged in parallel with respect to the insertion / extraction direction, and each plug terminal is provided. of the corresponding connector terminals, first connecting the pair of microphone input terminal, a pair of speakers terminals output the opposite phase of the audio signal for the audio signal supplied from each of the microphone input as a noise canceling signal 1 And first and second signal amplifying means provided on the second audio signal line and amplifying the synthesis result of the noise canceling signal and the reproduced audio signal, respectively , and when the multipolar plug is removed from the connector. first it is connected to the first audio signal line corresponding to the microphone input terminal being separated from the plug terminal, based on relative microphone through the voice signal line The change in the voltage supply line for supplying a voltage, and detecting means for detecting a valve slide of the multipolar plug, if disengaged multipolar plug is detected by the detecting means, an output from the second signal amplifying means When the insertion of the multipolar plug is detected, a suppression means for canceling the suppression is provided.

In addition, the present invention provides an audio signal corresponding to a connector corresponding to a multipolar plug in which all or a part of the plurality of plug terminals are arranged in parallel to the plug inserting / removing direction according to the plugging / unplugging of the multipolar plug. a suppressing output suppression method outputs, a pair of noise canceling audio signals of opposite phase with respect to the audio signals supplied respectively from the microphone input terminal and the microphone input terminal of the respective corresponding connector terminals to each plug terminal Of the first and second audio signal lines connecting the pair of speaker terminals that are output as signals , the first corresponding to the microphone input terminal that detaches from the plug terminal first when the multipolar plug is removed from the connector. It is connected to one of the audio signal line, the voltage change of the voltage supply line for supplying a reference voltage to the microphone through the first audio signal line, multipolar Detecting a tuning slide lugs, when it is detected disengaged the multipolar plug, the output from the signal amplifying means provided in the second sound signal on line suppressed, insertion of the multipolar plug is detected In the event of a failure, the suppression was released.

Furthermore, the present invention provides an audio signal corresponding to a connector corresponding to a multipolar plug in which all or a part of the plurality of plug terminals are arranged in parallel to the plug inserting / removing direction according to the plugging / unplugging of the multipolar plug. A program for suppressing output, and a pair of microphone input terminals corresponding to each plug terminal, and an audio signal having an opposite phase to the audio signal respectively supplied from the microphone input terminal, as a noise canceling signal Of the first and second audio signal lines connecting the pair of speaker terminals to be output , the first corresponding to the microphone input terminal that first detaches from the plug terminal when the multipolar plug is disconnected from the connector. is connected to the audio signal line, the voltage change of the voltage supply line for supplying a reference voltage to the microphone through the first audio signal line, multipolar Detecting the valve slide lugs, if disengaged multipolar plug is detected, the output from the signal amplifying means provided in the second sound signal on line suppressed, insertion of the multipolar plug is detected When it was done, it was made to perform canceling | releasing the said suppression.

In the present invention, when the plug is removed from the connector, a voltage change on the first audio signal line connected to the first audio signal line connected to the microphone input terminal that is first detached from the plug terminal is detected. Then, by suppressing the output from the second signal amplification means connected to the other microphone input terminal, at the time of the removal, the microphone input terminal connected to the second audio signal line in the connector, Even when the plug-side speaker output terminal is in contact, it is avoided that a part of the output from the audio signal line is fed back again, and as a result, oscillation (so-called howling) is prevented.

  Further, according to the present invention, by detecting the plug insertion / removal based on a change in voltage supplied to the microphone input terminal, the signal amplifying means provided on the audio signal line can be provided without providing a switch lever as in the prior art. Can be suppressed.

  As described above, the present invention detects the plug difference of the plug and prevents howling without separately providing in the multipolar plug a switch that opens and closes the switch according to the plug difference. Thus, it is possible to realize an acoustic device, an output suppression method, and a program that can prevent oscillation.

  The present invention is described in detail below with reference to the drawings.

(1) Appearance Configuration of Portable Music Player FIG. 1 shows an appearance configuration of a portable music player (hereinafter referred to as a portable music player) according to the present embodiment. The portable music player 1 is formed in a substantially rectangular parallelepiped shape that is rounded, and is large enough to be held with one hand.

  Various operation buttons, a display unit DP, and the like are provided on the surface of the portable music player 1. A jack JAK is provided at a predetermined position of the portable music player 1, and the jack JAK is routed from earphones EP1 and EP2 equipped with microphones (hereinafter referred to as earphones with microphones). A plug PLG provided at the tip of the connection cord CD is connected.

(2) Configuration of Plug and Jack This plug PLG and jack JAK are formed in correspondence with the standard mini-plug standard. The configuration of the plug PLG and jack JAK will be described below.

(2-1) Configuration of Plug As shown in FIGS. 2 to 6, the plug PLG includes a first conductor 11, a first insulator 12, a second conductor 13, a second insulator 14, 3 conductor 15, third insulator 16, fourth conductor 17, fourth insulator 18, and fifth conductor 19.

  The first conductor 11, the second conductor 13, the third conductor 15, the fourth conductor 17 and the fifth conductor 19 are all formed of a highly conductive metal material, and the first insulator 12, The second insulator 14, the third insulator 16, and the fourth insulator 18 are all formed of a non-conductive material such as a resin material.

  In the case of this embodiment, the first conductor 11 is assigned as the terminal of the left speaker, and the second conductor 13 is assigned as the terminal of the right speaker. The third conductor 15 is assigned as a ground terminal. Furthermore, the fourth conductor 17 is assigned as the terminal of the left microphone, and the fifth conductor 18 is assigned as the terminal of the right microphone.

  The first conductor 11 is formed in a substantially round shaft shape, and has a large-diameter electrode portion 11a and a small-diameter fitting portion 11b. The first conductor 11 is provided with a flange portion 11c projecting outward between the electrode portion 11a and the fitting portion 11b, and a cord is connected to the end portion of the fitting portion 11b opposite to the flange portion 11c. A portion 11d is provided.

  The outer peripheral surface of the electrode portion 11a is formed as an inclined surface 11e that is inclined so as to be displaced toward the center as it approaches the fitting portion 11b. The fitting portion 11b is longer in the axial direction than the electrode portion 11a. The cord connecting portion 11d has a diameter smaller than that of the electrode portion 11a and larger than that of the fitting portion 11b.

  The first insulator 12 is formed in a substantially cylindrical shape, and one end portion in the axial direction is provided as a large diameter portion 12a having a larger outer diameter than the other portion, and a portion other than the large diameter portion 12a is provided as a small diameter portion 12b. It has been. The large diameter part 12a is formed thicker than the small diameter part 12b. The end of the small-diameter portion 12b opposite to the large-diameter portion 12a is a protruding portion 12c that slightly protrudes outward, and a shallow fitting recess on the outer surface side between the large-diameter portion 12a and the protruding portion 12c. 12d is formed.

  The first insulator 12 is externally fitted to the fitting portion 11 b of the first conductor 11. In the state in which the first insulator 12 is externally fitted to the first conductor 11, the outer peripheral surface of the large-diameter portion 12a coincides with the outer peripheral surface of the flange portion 11c in the radial direction. The first conductor 11 has an electrode portion 11a, a flange portion 11c, and a cord connection portion 11d exposed.

  The second conductor 13 is formed in a substantially cylindrical shape, and has a large-diameter electrode portion 13a and a small-diameter fitting portion 13b. The first conductor 13 is provided with a connecting portion 13c formed in a substantially annular shape for connecting the electrode portion 13a and the fitting portion 13b, and the end portion of the fitting portion 13b opposite to the connecting portion 13c is a cord. It is provided as a connecting portion 13d.

  The second conductor 13 is externally fitted to the first insulator 12. In a state where the second conductor 13 is externally fitted to the first insulator 12, the electrode portion 13a is coupled to a portion excluding one end portion of the large diameter portion 12a, and the fitting portion 13b and the connecting portion 13c are fitted to the fitting recess. 12d, the outer peripheral surface of the fitting portion 13b is aligned with the outer peripheral surface of the overhang portion 12c in the radial direction. Therefore, the second insulator 12 has a part of the large diameter portion 12a and the overhang portion 12c exposed.

  The second insulator 14 is formed in a substantially cylindrical shape, and one end portion in the axial direction is provided as a large diameter portion 14a having a larger outer diameter than the other portion, and a portion other than the large diameter portion 14a is provided as a small diameter portion 14b. It has been. The large diameter portion 14a is formed thicker than the small diameter portion 14b. The end of the small-diameter portion 14b opposite to the large-diameter portion 14a is a protruding portion 14c slightly protruding outward, and a shallow fitting recess on the outer surface side between the large-diameter portion 14a and the protruding portion 14c. 14d is formed.

  The second insulator 14 is externally fitted to the fitting portion 13 b of the second conductor 13. When the second insulator 14 is fitted on the second conductor 13, the outer peripheral surface of the large-diameter portion 14a is aligned with the outer peripheral surface of the electrode portion 13a in the radial direction. The second conductor 13 has the electrode portion 13a and the cord connecting portion 13d exposed.

  The third conductor 15 is formed in a substantially cylindrical shape, and has a large-diameter electrode portion 15a and a small-diameter fitting portion 15b. The first conductor 15 is provided with a connecting portion 15c formed in a substantially annular shape for connecting the electrode portion 15a and the fitting portion 15b, and the end portion of the fitting portion 15b opposite to the connecting portion 15c is a cord. It is provided as a connecting portion 15d.

  The third conductor 15 is externally fitted to the second insulator 14. In a state where the third conductor 15 is externally fitted to the second insulator 14, the third conductor 15 is coupled to the fitting recess 14 d, and the outer peripheral surface of the electrode portion 15 a is aligned with the outer peripheral surface of the large-diameter portion 14 a in the radial direction. The outer peripheral surface of the joint portion 15b is aligned with the outer peripheral surface of the overhang portion 14c in the radial direction. Therefore, the second insulator 14 has the large diameter portion 14a and the overhang portion 14c exposed.

  The third insulator 16 is formed in a substantially cylindrical shape, and one end portion in the axial direction is provided as a large diameter portion 16a having a large outer diameter, and a portion continuous with the large diameter portion 16a in the axial direction is provided as a small diameter portion 16b. The other end portion in the axial direction is provided as a protruding portion 16c having a larger outer diameter than the small diameter portion 16b. The large diameter portion 16a and the overhang portion 16c are formed thicker than the small diameter portion 16b. The third insulator 16 is formed with a shallow fitting recess 16d on the outer surface side between the large diameter portion 16a and the overhang portion 16c.

  The third insulator 16 is externally fitted to the fitting portion 15 b of the third conductor 15. In a state in which the third insulator 16 is externally fitted to the third conductor 15, the outer peripheral surfaces of the large diameter portion 16a and the overhang portion 16c are aligned with the outer peripheral surface of the electrode portion 15a in the radial direction. The third conductor 15 has the electrode portion 15a and the cord connecting portion 15d exposed.

  The fourth conductor 17 is formed in a substantially cylindrical shape, and includes an electrode portion 17a and an annular protrusion 17b provided to project outward on the outer peripheral surface of the central portion in the axial direction of the electrode portion 17a. A part of the electrode portion 17a is provided as a cord connecting portion 17c.

  The fourth conductor 17 is externally fitted in the fitting recess 16 d of the third insulator 16. When the fourth conductor 17 is fitted on the third insulator 16, the outer peripheral surface of the electrode portion 17a is aligned with the outer peripheral surface of the large-diameter portion 16a and the outer peripheral surface of the overhang portion 16c in the radial direction. Yes. Therefore, the third insulator 16 has the large diameter portion 16a and the overhang portion 16c exposed.

  The fourth insulator 18 is formed by integrally forming a conductor mounting portion 20 and an extending portion 21 (see FIGS. 4 and 6).

  The conductor attachment portion 20 is formed long in one direction. As shown in FIG. 7, the main body portion 20a and projecting portions 20b and 20b projecting from one end in the longitudinal direction of the main body portion 20a to the opposite sides in the short direction. It consists of. A conductor mounting groove 20c extending in the longitudinal direction is formed in the main body portion 20a, and a fitting groove 20d extending in the short direction is formed on the surface opposite to the surface on which the conductor mounting groove 20c is formed. The extending portion 21 protrudes from one end surface in the longitudinal direction of the conductor attachment portion 20 in a direction orthogonal to the protruding direction of the protruding portions 20b and 20b.

  The fourth insulator 18 is attached to a part of the outer peripheral surface of the portion where the conductor attachment portion 20 extends from the large-diameter portion 14a to the overhanging portion 14c of the third insulator 14, and the extending portion 21 is the third portion. Are attached to a part of the outer peripheral surface of the portion extending from the cord connecting portion 15d of the conductor 15 to the overhanging portion 12c of the first insulator 12. Thus, in the state in which the fourth insulator 18 is attached, the protrusion 17b of the fourth conductor 17 is fitted into the fitting groove 20d, and the conductor attaching portion 20 is positioned on the outer peripheral side from the extending portion 21. Has been.

  The fifth conductor 19 is formed in a plate shape that is long in one direction, and has regulating protrusions 19a and 19a that protrude in opposite directions to each other in the middle in the longitudinal direction. The fifth conductor 19 has one side as an insertion portion 19b and the other side as a cord connection portion 19c with respect to the regulation protrusions 19a and 19a. A connecting protrusion 19d protruding in the thickness direction is provided at the end of the insertion portion 19b opposite to the cord connecting portion 19c.

  The fifth conductor 19 is attached to the fourth insulator 18 by inserting the insertion portion 19b into the conductor attachment groove 20c (see FIG. 3). In the state where the fifth conductor 19 is attached to the fourth insulator 18, the regulating protrusions 19 a and 19 a are in contact with one end surface of the main body 20 a, and the cord connecting portion 19 c is separated from the extending portion 21 toward the outer peripheral side. (See FIG. 4).

  In the plug 5 configured as described above, as shown in FIGS. 5 and 6, the cord connecting portion 11 d of the first conductor 11, the cord connecting portion 13 d of the second conductor 13, and the third conductor 15 One end of the corresponding connection cord CDa, CDb, CDc, CDd, CDe is connected to the cord connecting portion 15d, the cord connecting portion 17c of the fourth conductor 17 and the cord connecting portion 19c of the fifth conductor 19 by soldering, for example. Each is connected.

  The other ends of these connection codes CDa, CDb, CDc, CDd, and CDe are the speaker SK1 (FIG. 1) of the earphone EP1 with the microphone (FIG. 1), the speaker SK2 (FIG. 1) of the earphone with the microphone EP2 (FIG. 1), and the microphone. A ground terminal (not shown) in the attached earphones ER1 and ER2, a microphone MC1 (FIG. 1) of the earphone EP1 with the microphone (FIG. 1), and a microphone MC2 (FIG. 1) of the earphone EP2 with the microphone (FIG. 1) are connected. .

  Incidentally, these connection cords CDa, CDb, CDc, CDd, and CDe are covered by the cover 10 from the protrusion 17b of the fourth conductor 17 to the cord connection portion 11d of the first conductor 11, and the cord connection portion. 11d, 13d, 15d, 17c, and 19c are closed (see FIG. 2).

(2-2) Configuration of Jack Next, the configuration of the jack JAK corresponding to the plug PLG will be described. As shown in FIG. 8, the jack JAK has a casing 24 and is attached to a predetermined position of the portable music player 1.

  The casing 24 is formed with a plug insertion hole 24a opened on one side. Five terminal pieces 25 protrude from the end of the jack JAK opposite to the opening of the plug insertion hole 24a. The terminal piece 25 is connected to an electronic circuit inside the portable music player 1.

  As shown in FIGS. 9 and 10, the housing 24 has a first connection terminal 26, a second connection terminal 27, a third connection terminal 28, a fourth connection terminal 29, and a fifth connection terminal. A connection terminal 30 is arranged.

  The first connecting terminal 26 (see FIG. 9) includes a base portion 26a disposed along the inner surface of the jack JAK, and a base end portion 26b that is folded back from the base portion 26a and extends away from the plug insertion hole 24a. And a leaf spring portion 26c that is continuous with the base end portion 26b and bent in a direction away from the base portion 26a with respect to the base end portion 26b, and a distal end portion of the leaf spring portion 26c serves as a connection portion 26d. Is provided.

  The second connection terminal 27 (see FIG. 10) includes a base end portion 27a arranged in parallel with the inner surface of the jack JAK, and an inner surface of the jack JAK that is continuous with the base end portion 27a and is connected to the base end portion 27a. A leaf spring portion 27b bent in a direction away from the front end, and a distal end portion of the leaf spring portion 27b is provided as a connection portion 27c. The connecting portion 27 c is located closer to the plug insertion hole 24 a than the connecting portion 26 d of the first connecting terminal 26.

  The third connection terminal 28 (see FIG. 9) has a base end portion 28a disposed along the inner surface of the jack JAK, and is spaced from the inner surface of the jack JAK with respect to the base end portion 28a. And a distal end portion of the leaf spring portion 28b is provided as a connection portion 28c. The connection portion 28 c is located closer to the plug insertion hole 24 a than the connection portion 27 c of the second connection terminal 27.

  The fourth connection terminal 29 (see FIGS. 9 and 10) includes a base end portion 29a disposed along the inner surface of the jack JAK, and a jack end of the jack JAK connected to the base end portion 29a. A leaf spring portion 29b bent in a direction away from the inner surface, and a tip portion of the leaf spring portion 29b is provided as a connection portion 29c. The connection portion 29c is located closer to the plug insertion hole 24a than the connection portion 28c of the third connection terminal 28, and is located immediately inside the opening of the plug insertion hole 24a.

  The fifth connection terminal 30 (see FIG. 10) has a base end portion 30a disposed along the inner surface of the jack JAK, and is spaced from the inner surface of the jack JAK with respect to the base end portion 30a. The leaf spring portion 30b is bent in the direction to be bent, and the distal end portion of the leaf spring portion 30b is provided as a connection portion 30c. The connection part 30c is located immediately inside the opening of the plug insertion hole 24a.

  A stopper wall 31 is provided inside the jack JAK (see FIG. 10). The stopper wall 31 is located on the opposite side to the inner surface of the jack JAK with the leaf spring portion 30b of the fifth connection terminal 30 interposed therebetween.

  A holding insulating member 32 is provided inside the jack JAK (see FIGS. 9 and 10). The holding insulating member 32 is provided at the end opposite to the opening of the plug insertion hole 24a.

  The first connection terminal 26, the second connection terminal 27, the third connection terminal 28, the fourth connection terminal 29, and the fifth connection terminal 30 are each partially embedded in the holding insulating member 32 and held. The terminal piece 25 is continuously connected to each other. Accordingly, the first connection terminal 26, the second connection terminal 27, the third connection terminal 28, the fourth connection terminal 29, and the fifth connection terminal 30 are connected to the portable music player via the terminal pieces 25, respectively. 1 is connected to an internal circuit.

(2-3) Connection state of plug and jack When the plug PLG is inserted into the plug insertion hole 24a of this jack JAK, as shown in FIGS. 11 and 12, the electrode portion 11a of the first conductor 11, the second The electrode portion 13a of the first conductor 13, the electrode portion 15a of the third conductor 15, the electrode portion 17a of the fourth conductor 17, and the connecting protrusion 19a of the fifth conductor 19 correspond to the corresponding first left speaker speaker. Connection portion 26d of connection terminal 26, connection portion 27c of second connection terminal 27 for right speaker, connection portion 28c of third connection terminal 28 for ground, connection portion of fourth connection terminal 29 for left microphone 29c and the connection portion 30c of the fifth connection terminal 30 for the right microphone.

  At this time, the plug PLG has a position where the projection 17b of the fourth conductor 17 contacts the outer opening edge of the plug insertion hole 24a in the jack JAK and one end surface of the insertion portion 19b of the fifth conductor 19 contacts the stopper wall 31. Until the jack JAK is positioned in the insertion direction.

  The connection portions 26d, 27c, 28c, 29c, and 30c are elastically deformed against the spring force with respect to the base end portions 26b, 27a, 28a, 29a, and 30a, respectively, and the electrode portions 11a, 13a, and 15a, The electrodes 17a and the connection projections 19a are connected in a pressed state.

(3) Circuit Configuration of Portable Music Player (3-1) Circuit Configuration of Entire Portable Music Player Next, as the circuit configuration of the portable music player 1, the entire circuit configuration of the portable music player 1 will be described. As shown in FIG. 13, the portable music player 1 has an operation unit 51, a data storage medium 52, a plug detection unit 53, a display unit DP, and a signal with respect to a control unit 50 that controls the entire portable music player 1. It is configured by connecting the processing unit 54.

  The control unit 50 is a microcomputer including a CPU (Central Processing Unit), a ROM (Read Only Memory) storing various programs and setting data, and a RAM (Random Access Memory) used as a work memory of the CPU. Composed.

  The control unit 50 controls the data storage medium 52, the display unit DP, and the signal processing unit 54 based on the control data given from the operation unit 51 and the setting data stored in the ROM according to the program stored in the ROM. Control appropriately.

  The operation unit 51 generates control data corresponding to the operation of various operation buttons provided on the housing surface of the portable music player 1 and sends it to the control unit 50.

  The data storage medium 52 is, for example, an EEPROM (Electrically Erasable Programmable Read Only Memory), and the data storage medium 12 stores various data such as a digital audio signal D1.

  The display unit DP is provided, for example, as a FL (Fluorescent Lamp) tube on the housing surface of the portable music player 1 (see FIG. 1). Based on the display data generated by the control unit 50, for example, the playback content is displayed. The state of the playback mode currently specified, whether or not a noise-cancelling earphone (or headphones) is connected, etc. are displayed in characters and graphics.

  An example of a display screen displayed on the display unit DP is shown in FIG. At the left end of the display screen, an image IM related to the current reproduction target or a sample image (not shown) stored in the ROM as setting data is displayed. The title name of the current playback target is displayed in the upper center of the display screen, the artist name of the current playback target is displayed in the middle middle, and the playback time of the current playback target is displayed in the lower center. Further, at the lower right corner of the display screen, the current remaining amount with respect to the battery capacity is displayed as a graphic simulating the battery.

  On the other hand, on the left side of the figure simulating the battery, a figure AC1 representing the shuffle playback mode and a figure AC2 representing the repeat reproduction mode are shown, and on the upper side of the figure simulating the battery, the figure AC3 representing the surround mode and its number. Is displayed when the mode is specified.

  On the other hand, a graphic AC4 indicating that a noise canceling earphone (or headphones) is connected to the upper side of the graphic AC3 is a character other than the graphic AC4 when the earphone (or headphones) is connected. And a color different from that of the figure. Therefore, in this display screen example, it is possible to pay attention to the fact that noise canceling compatible earphones (or headphones) are connected.

  The plug detection unit 53 detects the presence or absence of connection in the plug PLG of an earphone (or headphone) that supports jack noise canceling. Specifically, among the connection terminals 26, 27, 28, 29, and 30 (for example, FIG. 9 and FIG. 10) arranged on the jack JAK, the plug-side terminal 18 connected to the microphone MC1 of the microphone-equipped earphone MP1. Through a terminal (microphone input terminal) 29 corresponding to the jack 29 due to a voltage change of a signal line (hereinafter referred to as a voltage supply line) for supplying a reference voltage to the microphone 29 (or a jack noise canceling earphone) (or A plug-in / out state (connection presence / absence) of the plug PLG of the headphones is detected.

  In addition, when a standard mini plug of an earphone (or headphone) that does not support noise canceling, that is, an earphone (or headphone) that is not equipped with a microphone, is connected, each connection terminal 26, 27, 28 arranged on the jack JAK is connected. 29, 30 (for example, FIGS. 9 and 10), only the left and right channel speaker connection terminals 26 and 27 and the ground connection terminal 28 are connected to the plug-side terminal.

  In this case, since the voltage change does not occur in the voltage supply line, the plug detection unit 53 does not detect the plug-in state (presence / absence of connection) in the plug PLG of the earphone (or headphone) compatible with jack noise canceling.

  Further, when the plug detection unit 53 detects that the plug PLG is inserted or removed, the plug detection unit 53 opens a switch (not shown) provided in the audio line, so that the earphone (not compatible with noise canceling) ( Alternatively, the input of the audio signal from the headphone) is forcibly cut off.

  A digital audio signal D1 reproduced from the data storage medium 12 is input to a DSP (Digital Signal Processor) 54A of the signal processing unit 54. When a noise canceling-compatible earphone (or headphone) plug PLG is inserted into the jack JAK, the first filter coefficient representing the frequency characteristics corresponding to the noise canceling mode is input as setting data. When the plug PLG is not connected, the second filter coefficient representing the frequency characteristic not corresponding to the noise canceling mode is input as setting data.

  The DSP 54A performs a filtering process on the digital audio signal D1 based on the first or second filter coefficient input as setting data. Incidentally, when the digital audio signal D1 is compressed, the DSP 54A also performs an expansion process according to the compression method.

  Further, the DSP 54A performs D / A (Digital / Analog) conversion processing after the filter processing, and sends the left and right channel analog audio signals S1 obtained as a result to the synthesizing unit 54C.

  On the other hand, when a noise canceling earphone (or headphone) plug PLG is inserted into the jack JAK in the noise canceling signal generating unit 54B of the signal processing unit 54, a microphone is connected via the plug PLG. Left and right channel audio signals S2 are input from the microphones MC1 and MC2 (FIG. 1) of the attached earphones EP1 and EP2.

  The noise canceling signal generation unit 54B generates audio signals having phases opposite to those of the input left and right channel audio signals S2, and sends these to the synthesis unit 54C as noise canceling signals S3.

  The synthesizing unit 54C synthesizes the left and right channel analog audio signals S1 supplied from the DSP 54A and the left and right channel noise canceling signals S3 supplied from the noise canceling signal generating unit 54B in units of corresponding channels. The channel synthesis result is sent to the signal amplifier 54D as an audio output signal S4.

  Incidentally, when the noise canceling signal S3 is not supplied from the noise canceling signal generation unit 54B, that is, when a plug of an earphone (or headphones) that does not support noise canceling is inserted into the jack JAK, the signal is supplied from the DSP 54A. The analog audio signal S1 is sent to the signal amplifier 54D as the audio output signal S4.

  The signal amplifying unit 54D amplifies the audio output signal S4 input from the synthesizing unit 54C based on the volume control data supplied from the operation unit 11, and then amplifies the audio output signal S4 corresponding to the jack JAK (for example, FIG. 9). And FIG. 10).

(3-2) Plug Detection Unit (3-2-1) Connection State of Plug Detection Unit First, the connection state of the plug detection unit 53 will be described. As shown in FIG. 15, the signal line of the audio signal connected from the right microphone MC2 to the jack-side terminal 30 (microphone input terminal) corresponding to the plug-side terminal 18 (hereinafter referred to as an audio signal line). the LN _R, corresponding noise canceling signal generation unit 54B _R, combining section 54C _R and the signal amplifying unit 54D _R are respectively connected.

Also, among the audio signal line LN _R, it is between the jack side of the terminal (microphone input terminal) 30 and noise-canceling signal generating unit 54B _R, and the power supply line LN _X is connected, the power supply line LN _A plug detection unit 53 is arranged on _X.

On the other hand, the audio signal line LN _L which is connected to the jack-side of the terminal (microphone input terminal) 29 corresponding to the plug side terminal 17 left microphone MC1 is connected, the corresponding noise canceling signal generation unit 54B _L The combining unit 54C _L and the signal amplifying unit 54D _L are connected to each other.

Further, these audio signal line LN _L, is between the jack side of the terminal (microphone input terminal) 29 and noise-canceling signal generating unit 54B _L, the switch SW is connected.

  This switch element SW is connected to the plug detection unit 53, and is opened when the plug PLG is in the disconnected state with respect to the jack JAK, and is closed when the plug PLG is in the inserted state. State. The opening / closing operation of the switch SW is executed by the plug detection unit 53.

(3-2-2) Configuration of Plug Detection Unit Next, a specific configuration of the plug detection unit 53 will be described. As shown in FIG. 16, the plug detection section 53 includes a transistor TR, the emitter of the transistor TR is connected to the power supply line LN _X, together with the collector is connected to ground via a resistor, the resistor And connected to the switch via the connection midpoint of the collector.

The base is connected to the emitter via a resistor R2, it is connected to the audio signal line LN _R via the resistor R3.

(3-2-3) Operation of Plug Detection Unit when Plug is Plugged Here, when the plug PLG is in the disconnected state, no voltage difference is generated between the base and collector of the transistor TR. Turns off. In this case, the voltage supplied from the voltage source is not supplied to the switch SW, and the switch SW is opened.

  In this state, when the plug PLG starts to be inserted into the jack JAK and the right microphone input terminal 18 of the plug PLG is connected to the terminal 30 of the corresponding jack JAK, the base current is supplied to the plug detection unit 53. When a voltage difference is generated between the base and the collector of the transistor TR, the transistor TR is turned on. In this case, the voltage supplied from the voltage source is supplied to the switch SW, whereby the switch SW is closed.

(3-2-4) Operation of the plug detection unit at the time of plug removal When the plug PLG is inserted, the plug PLG starts to be removed, and the right microphone input terminal 18 of the plug PLG is compatible. When the terminal is disconnected from the terminal 30 of the jack JAK, the inflow of the base current to the plug detection unit 53 is interrupted, so that there is no voltage difference between the base and the collector of the transistor TR, and as a result, the switch SW is opened. In this case, the voltage supplied from the voltage source is not supplied to the switch SW, and as a result, the switch SW is opened.

(3-2-5) plug detection section 53 as the summary of the operation of the plug detection section, when a voltage difference between the base and collector to a power supply line LN _X definitive-connected transistors TR occurs, switch SW When the voltage difference between the base and the collector in the transistor TR disappears, the switch SW is opened.

(4) Operation and effect according to the present embodiment In the above-described configuration, in the portable music player 1, the plug detection unit 53 is disposed at a position closest to the plug insertion hole 24a (FIG. 8) of the jack JAK. that monitors the terminal 30 voltage change in voltage of the supply line LN _X, which is connected to the audio signal lines correspond to a (FIG. 10, etc.) LN R _(FIG. 15) of the microphone input.

Therefore, in this portable music player 1, when the plug PLG is removed from the jack JAK (see FIG. 11 or 12), the plug-side terminal 18 corresponding to the microphone input terminal 30 is first removed. since that would, switch SW (FIG. 15), after removal抜直, in the open state by the plug detection section 53, the other audio signal line LN _L is shorted.

Thus, in this portable music player 1, when the plug PLG is further removed from the jack JAK (see FIG. 11 or 12), the other microphone input terminal 29 in the jack JAK and the speaker output in the plug PLG Even when the terminals 11 and 13 are in contact with each other, it is avoided that a part of the output from the corresponding audio signal line LN _L (FIG. 15) is fed back again. As a result, oscillation (so-called howling) is avoided. ) Will be prevented.

On the other hand, when the plug PLG is inserted into the jack JAK (see FIG. 11 or FIG. 12), until the plug PLG is completely inserted into the jack JAK, the plug side corresponding to the microphone input terminal 30 is connected. since the terminal 18 is not connected, the switch SW, when insertion state of the plug PLG against the jack JAK is incomplete, not closed by the plug detection section 53, the audio signal line LN _L is shorted It will be in the state that has been done.

Thus, in this portable music player 1, when plug PLG is inserted into jack JAK (see FIG. 11 or FIG. 12), microphone input terminals 29 and 30 in jack JAK and speaker output in plug PLG are output. Even when the terminals 11 and 13 are in contact with each other, it is avoided that a part of the output from the corresponding audio signal line LN _L (FIG. 15) returns again. As a result, oscillation (so-called howling) is prevented. Will be prevented.

  In the portable music player 1, the voltage supplied to the microphone input terminal 30 (FIG. 10, etc.) disposed closest to the plug insertion hole 24a (FIG. 8) of the jack JAK is detected by plug detection. By monitoring by the unit 53, the opening / closing operation of the switch SW can be executed without providing a switch lever as in the prior art, so that the size can be reduced as much as the movable space of the switch lever can be avoided. .

  In the case of this embodiment, in the plug detection unit 53 (FIG. 15), the base of the transistor TR and the reference voltage adjustment resistor (specifically, about 3 [kΩ]) R3 supplied from the voltage source are connected. Resistors R1 and R2 are arranged so that the transistor TR is turned on and off according to the presence or absence of a base current flowing between the collectors. Thereby, in the plug detection unit 53, the adjustment resistor can also be used as a plug detection resistor, and the circuit configuration can be reduced in size.

According to the above configuration, the plug PLG is detected based on a change in voltage supplied to the microphone input terminal 30 disposed closest to the plug insertion hole 24a (FIG. 8) of the jack JAK. together, prevented by that so as to short-circuit the audio signal line LN _L, independent without providing an additional terminal on the multi-pole plug for connection detection, the howling detecting the plug PLG in response to dehydration disconnect Thus, the portable music player 1 capable of preventing oscillation with a simple configuration can be realized.

(5) Other Embodiments In the above-described embodiments, the case where the plug PLG and the jack JAK of the standard mini-plug standard are adopted has been described. However, the present invention is not limited to this, and for example, left and right speakers are used. You may employ | adopt the pin plug and jack corresponding to the earphone (or headphones) with which the microphone was mounted only in any one, ie, the pin plug and jack whose microphone input terminal is monaural. Further, pin plugs and pin jacks other than this standard mini-plug standard may be adopted, and connectors other than the pin type may be adopted.

  Note that the assignment of each terminal in the plug PLG is left (or right) speaker, right (or left) speaker, ground, left (or right) microphone, and right (or left) microphone from the front end side (for example, 2), the present invention is not limited to this, and other allocation modes may be used. Incidentally, the same applies to the assignment of each terminal in the jack PLG.

  However, when the microphone input is two or more channels, the plug detection unit 53 is provided on the voltage supply line connected to the audio signal line corresponding to the microphone input terminal closer to the insertion port of the connector. SW needs to be provided in the audio signal line corresponding to the microphone input terminal farther from the insertion port of the connector. In this way, the same effect as in the case of the above-described embodiment can be obtained.

  Further, in the above-described embodiment, the case where the switch SW provided on the audio signal line is opened as the suppression unit that suppresses the output from the signal amplification unit has been described, but the present invention is not limited thereto. First, power supply to the signal amplifying unit 54D may be cut off, and the output level to the signal amplifying unit 54D may be lowered to a predetermined level (a level that does not cause howling).

  Furthermore, in the above-described embodiment, the case where the plug detection unit 53 has the hardware configuration shown in FIG. 16 has been described. However, the present invention is not limited to this, and the plug detection unit includes a CPU, ROM, and RAM. The CPU expands a program stored in a ROM, a program installed from a recording medium such as a CD (Compact Disc), a DVD (Digital Versatile Disc), or a semiconductor memory, or a program downloaded from the Internet onto the RAM. In accordance with the program, when the voltage difference of the voltage supply line is detected, the plug difference of the multi-polar plug is detected, and when the removal of the multi-polar plug is detected with respect to the suppression means, The output from the provided signal amplifying means is suppressed, and when the insertion of the multipolar plug is detected, the suppression is canceled. It may be caused to execute and.

  Further, in the above-described embodiment, the case where the portable music player 1 is applied has been described. However, the present invention is not limited to this, and for example, a DVD player, an MD (Mini Disk) player, a CD player, a digital camera Various other devices having a connector corresponding to a plug provided with an input terminal of a microphone, such as a mobile phone, a PDA (Personal Digital Assistants), a video camera, or a television receiver, can be applied.

  The present invention can be used for an apparatus having a connector corresponding to a plug in which an input terminal of a microphone is arranged.

It is a basic diagram which shows the external appearance structure of a portable music player. It is an expansion perspective view of a plug. It is an enlarged side view of a plug. FIG. 4 is an enlarged side view of the plug shown in a state seen from a direction different from FIG. 3. It is an expanded sectional view of a plug. It is an expanded sectional view of the plug shown in the state seen from the direction different from FIG. It is an expansion perspective view which shows a 4th insulator and a 5th conductor. It is an expansion perspective view of a jack. It is sectional drawing which follows the IX-IX line of FIG. It is sectional drawing which follows the XX line of FIG. It is an expanded sectional view showing the state where the plug was connected to the jack. FIG. 12 is an enlarged cross-sectional view showing a state in which the plug is connected to the jack in a state seen from a direction different from FIG. 11. It is a block diagram which shows the circuit structure of a portable music player. It is a basic diagram which shows the example of a display screen. It is a basic diagram which shows the connection state of a plug detection part. It is a basic diagram which shows the structure of a plug detection part.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Portable music player, 50 ... Control part, 51 ... Operation part, 52 ... Data storage part, 53 ... Plug detection part, 53A ... Resistance, 53B ... Voltage detection circuit, 53C ... Switch element 54 ... Signal processing unit 54A ... DSP 54B ... Noise canceling signal generation unit 54C ... Synthesis unit 54D ... Signal amplification unit DP ... Display unit AC1-AC4 ... Figure, EP1 EP2: Earphone with microphone, MC1, MC2 ... Microphone, SK1, SK2 ... Speaker, JAK ... Jack, PLG ... Plug, TR ... Transistor, SW ... Switch, R1-R3 ... Resistance.

Claims (9)

A connector corresponding to a multipolar plug in which all or a part of the plurality of plug terminals are arranged in parallel to the insertion / extraction direction ;
Of the connector terminals corresponding to each of the plug terminals, a pair of microphone input terminals, and a pair of speaker terminals that output an audio signal having an opposite phase to the audio signal respectively supplied from the microphone input terminal as a noise canceling signal First and second signal amplifying means for amplifying the synthesis result of the noise canceling signal and the reproduced audio signal, respectively, provided on the first and second audio signal lines connecting
The multipolar plug is connected to the first corresponding to the microphone input terminal being separated from the plug pin the first audio signal line when it is disengaged from the connector, the microphone via the first audio signal lines Detecting means for detecting a plug difference of the multipolar plug by a voltage change of a voltage supply line for supplying a reference voltage to the reference voltage;
When the detecting means detects the removal of the multipolar plug, the output from the second signal amplifying means is suppressed, and when the insertion of the multipolar plug is detected, the suppression is released. Ruoto sound device comprising a restraining means for. Above Symbol detection means,
Of the pair of microphone input terminals, the multipolar plug is changed by voltage change of the voltage supply line connected to the first audio signal line corresponding to the microphone input terminal closer to the insertion port of the connector. Detecting the slip of
The suppression means is
The output from the second signal amplifying means provided in the second audio signal line corresponding to the microphone input terminal farther from the insertion port of the connector is suppressed or released.
Acoustic device according to 請 Motomeko 1. The microphone input terminal closest to the connector insertion port is disposed at a position closest to the connector insertion port among the connector terminals.
Acoustic device according to 請 Motomeko 2. The suppression means is
Provided between the microphone input terminal and the signal amplifying means on the second audio signal line. When the detecting means detects the removal of the multipolar plug, the detecting means opens. When the insertion of the multipolar plug is detected, the switch is closed by the detecting means.
Acoustic device according to 請 Motomeko 1. The suppression means is
By cutting off power supply to said second signal amplifying means suppresses the output from the second signal amplifying means in said second audio signal lines
Acoustic device according to 請 Motomeko 1. It said suppressing means by pulling the output level for the second signal amplifying means to a predetermined level to suppress the output from the second signal amplifying means in said second audio signal lines
Acoustic device according to 請 Motomeko 1. The detection means is shared with an adjustment resistor that adjusts a reference voltage supplied to the microphone via the microphone input terminal.
Acoustic device according to 請 Motomeko 1. Output that suppresses output of an audio signal according to plugging / unplugging of the multipolar plug to a connector corresponding to the multipolar plug in which all or part of the plurality of plug terminals are arranged in parallel to the plugging / unplugging direction of the plug A suppression method,
A pair of speakers terminals output the audio signal of the opposite phase as a noise canceling signal to the audio signal supplied from each of the pair of microphone input terminal and the microphone input terminal of the respective corresponding connector terminals to each of the plug pins Of the first and second audio signal lines connecting the first and second audio signal lines to the first audio signal line corresponding to the microphone input terminal that is first disconnected from the plug terminal when the multipolar plug is removed from the connector. is, by the change in the voltage supply line for supplying a reference voltage to the microphone through the first audio signal line, a first step of detecting a valve slide of the multipolar plug,
When the removal of the multipolar plug is detected, the output from the signal amplification means provided on the second audio signal line is suppressed, and when the insertion of the multipolar plug is detected, the second output suppression method Ru comprising the step of releasing the inhibition. A program that suppresses output of an audio signal in accordance with the plugging / unplugging of the multipolar plug for a connector corresponding to the multipolar plug in which all or some of the plurality of plug terminals are arranged in parallel to the plugging / unplugging direction of the plug Because
A pair of speakers terminals output the audio signal of the opposite phase as a noise canceling signal to the audio signal supplied from each of the pair of microphone input terminal and the microphone input terminal of the respective corresponding connector terminals to each of the plug pins Of the first and second audio signal lines connecting the first and second audio signal lines to the first audio signal line corresponding to the microphone input terminal that is first disconnected from the plug terminal when the multipolar plug is removed from the connector. is, by the change in the voltage supply line for supplying a reference voltage to the microphone through the first audio signal lines, detecting valve slide of the multipolar plug,
When the removal of the multipolar plug is detected, the output from the signal amplification means provided on the second audio signal line is suppressed, and when the insertion of the multipolar plug is detected, Help program is executed to cancel the inhibition.

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